KR102157978B1 - Electronic Water Meter - Google Patents

Abstract

The present invention relates to an electronic water meter and, more specifically, to an electronic water meter capable of recognizing even a minute flow rate. According to the present invention, the electronic water meter comprises: a main body (10) having an inlet part (11) and an outlet part (12); a rotating means (20) having a helical gear (21), a magnet shaft (22), and a fixing plate (23); an electronic part (30); and a charging means (40).

Description

Electronic Water Meter {Electronic Water Meter}

The present invention relates to an electronic water meter, and more specifically, it is possible to charge according to the flow of water, so that power supplied to the LCD of the water meter can be supplied for a long time, so that the power for 8 years, which is the legal metering durability year of the water meter, is constantly As the supply is possible and the power supply is smooth, wireless remote meter reading is smoothly performed using the water meter using IOT, and the flow rate of water is measured through a rotating helical gear. It also relates to an electronic water meter that can be recognized.

Typically, a water meter is installed at a point where a water pipe is introduced into a house or a building, and such a water meter is protected by a protective barrel due to problems such as damage or freezing due to external shocks and temperature differences depending on the season. There are various types of water meters, and they are divided into wet type, dry type, electronic type, and mechanical type and are used respectively. Here, in the case of an electronic water meter, it is implemented with an LCD to display the flow rate of water. To implement this, a separate power supply installed inside or outside is required. In the case of an external power supply, inconvenience and defects in installation It is easy to occur, and power is supplied through a battery inside. However, in the case of such a battery, there is a problem in that it is not possible to accurately measure the flow rate of water because most of the batteries are not able to meet the legal metering duration of 8 years, and most of them cannot supply power. In addition, in the case of a general water meter, there is a problem of not being able to recognize when a minute leak occurs.

For example, according to Korean Patent No. 1214911,'In a water meter for measuring the flow rate of tap water, a flow path having a water inlet formed at one side and a water outlet at the other side was formed inside, and the water inlet and A venturi part is formed between the water outlets so that the water introduced through the water inlet flows through the venturi part to the water outlet side, and a resistance plate is arranged in the center of the flow path at the outlet side of the venturi part to separate the water flow in both directions, Part of the separated water flow is rotated to the rear side through a pair of rotation passages respectively formed on both sides of the outlet side of the venturi unit to re-inflow through both sides of the neck of the venturi unit; A pair of magnets mounted inside the body portion are provided, and each of the magnets is fixed in a pair of magnet storage chambers formed at the center of the rotation flow path, and the pair of magnets generate a magnetic field on the flow path. A magnetic field generator that generates; And a pair of frequency detection sensors disposed between the neck of the venturi part and the outlet of the venturi part, and the pair of frequency detection sensors of a magnetic field that fluctuates in proportion to the flow rate of water flowing through the venturi part. A frequency detector configured to detect a frequency value and transmit it to the outside; And reading the water flow rate by receiving the frequency signal detected from the pair of frequency detection sensors of the frequency detection unit at the upper side of the flow path of the body, displaying the current water flow rate and the accumulated flow rate on the display window, and The flow rate is measured by using the principle of fluidic oscillation passing through the Venturi, including a control unit operating by receiving power, and the lower part surrounding the flow path is PPS (Polyphenylene) Sulfide) resin, the upper part containing the storage battery and the control part is made of transparent plastic synthetic resin, the lower part and the upper part are integrally fitted, while the lower part is formed in a circular cross section, so that when water is frozen, It is configured to uniformly distribute the volume expansion force over the entire body part, and the lower part separates the internal venturi part, a pair of rotational channels, and a pair of magnet storage rooms from the inner space of the lower part, respectively. And a space between the partition wall and the inner surface of the lower part is filled with epoxy resin and cured, while the upper part separates and divides the control part and the storage battery compartments therein from the inner space of the upper part. An electronic water meter for freeze protection, characterized in that it has a partition wall and is structurally reinforced through an epoxy resin over the entire body by filling and curing an epoxy resin in the space between the partition wall and the inner surface of the upper part.' .

However, such an electronic water meter for freeze protection is a configuration that supplies power using a storage battery, but a separate charging configuration is not provided, so it cannot meet the legal metering durability year of 8 years, and the storage battery is separated from the water meter and charged manually. The configuration has to be recombined in the same state, causing discomfort, and a problem of not being able to recognize when a minute leak occurs.

As another example, according to Korean Patent No. 1790326,'a housing 10 having an inlet 11 and an outlet 12 to which water pipes are connected are formed on both sides, and an opening 13 formed on the upper surface thereof, and the housing ( 10) a support case 20 provided inside of the support case 20, an impeller 30 rotatably coupled to the inside of the support case 20, a permanent magnet 40 coupled to an upper end of the impeller 30, and , It is provided on the upper surface of the support case 20, the lower surface is a metering means 50 provided with a detection sensor 51 for detecting the rotation of the permanent magnet 40, and is coupled to the housing 10 to the In the electronic water meter comprising a sealing member 60 for sealing the opening 13 of the housing 10, the impeller 30 extends in the vertical direction and the upper surface is open support cylinder 33, the support A plurality of blades 34 extending in a radial direction from the circumference of the cylinder 33, and a rotation shaft 35 extending upward from the inner bottom surface of the support cylinder 33, the permanent magnet 40 Is formed in a cylindrical shape with a through hole 41 formed in the center portion and is extended in the vertical direction, and is fitted outside the upper end of the rotation shaft 35, and the outer diameter of the rotation shaft 35 is in the inner diameter of the support cylinder 33 It is configured to be smaller than that, so that a gap G is formed between the outer circumferential surface of the rotation shaft 35 and the inner circumferential surface of the support cylinder 33, and is composed of an elastic rubber material, and the outer circumferential surface is on the inner circumferential surface of the support cylinder 33. An electronic water meter, characterized in that it further comprises an elastic ring body 36 that is fitted to the outside of the rotation shaft 35 to seal the inlet portion of the gap G.

However, even in the case of such an electronic water meter, it is not possible to measure the exact flow rate of water because it is not able to meet the legal metering durability year of 8 years, as it is configured to be able to supply power through a general battery. Occurs.

Korean Registered Patent No. 1214911 "Freeze Prevention Electronic Water Meter" Korean Registered Patent No. 1790326 "Electronic Water Meter"

It is an object of the present invention to fundamentally improve the conventional problems as described above, and it is possible to supply the power supplied to the LCD of the water meter for a long time by charging according to the flow of water, so that the legal metering duration of the water meter is 8 years. As the power supply of the power supply is possible and the power supply is smooth, wireless remote meter reading is smoothly performed using the IOT of the water meter, and the maximum and minimum magnification of the flow rate increases because the flow rate of water is measured through a rotating helical gear. According to this, it is intended to provide an electronic water meter capable of recognizing even a minute flow rate.

The present invention for achieving the above object, in the electronic water meter for measuring the flow rate of water: a main body having an inlet portion capable of entering the water and a discharge portion capable of discharging; A helical gear installed to rotate according to the water flow direction to generate magnetic force while rotating at a fine flow rate according to the flow rate of water flowing into the body, and a helical gear installed in the center of the helical gear to enable rotation of the helical gear and generate magnetic force A rotating means having a magnet shaft and a fixing plate to fix the helical gear and the magnet shaft on both sides of the magnet shaft; An electronic unit that measures water by recognizing the magnetic force of the rotating means, displays information on the flow rate measured through the power of the battery, and interlocks with the Internet of Things to enable wireless remote meter reading; And a charging means connected to the battery of the electronic unit and configured to be charged through a rotating means that rotates according to the flow rate of water.

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In addition, the charging means of the present invention is characterized in that it is provided with a charging coil to enable charging through an impeller that is connected to the battery and rotates according to the flow rate of water.

On the other hand, prior to this, terms or words used in the present specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors have developed the concept of terms in order to explain their own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical spirit of the present invention, and thus various alternatives that can be substituted for them at the time of application It should be understood that there may be equivalents and variations.

As described in the above configuration and operation, the present invention can be charged according to the flow of water, so that power supplied to the LCD of a water meter can be supplied for a long time, so that power for 8 years, which is the legal metering durability year of the water meter, is constantly supplied. It is possible, and as the power supply is smooth, wireless remote meter reading is smoothly performed using the IOT of the water meter, and the flow rate of water is measured through the rotating helical gear, so as the maximum and minimum magnification of the flow rate increases, minute flow rate is recognized. Provides possible effects.

1 is a cross-sectional view showing an enlarged rotation means of an electronic water meter according to the present invention
Figure 2 is a cross-sectional view showing an enlarged charging means of the electronic water meter according to the present invention
3 is a cross-sectional view showing a process of measuring the flow rate of water in the electronic water meter according to the present invention
4 is an exploded cross-sectional view showing an exploded state of the electronic water meter according to the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to an electronic water meter for measuring the flow rate of water (1), and has a main body 10, a rotating means 20, an electronic part 30, and a charging means 40 as main components.

The main body 10 according to the present invention includes an inlet 11 through which water 1 can be introduced and a discharge part 12 through which water can be discharged. A space 13 of a certain size is formed between the inlet 11 and the outlet 12 of the main body 10 so that the rotation means 20 to be described later can be accommodated. In addition, a separate strainer (not shown) may be formed in a state in which a separate strainer (not shown) is inserted in the inlet 11 to remove solid foreign matter contained in the water 1, but this will be omitted.

In addition, the rotating means 20 according to the present invention generates magnetic force while rotating even at a fine flow rate according to the flow rate of the water 1 flowing into the body 10. Such, the rotating means 20 is configured to be able to exert a rotational force even in the flow rate of the fine water (1) such as leakage, so that the consumption of water (1) can be accurately checked.

At this time, the rotating means 20 is inserted in the center of the helical gear 21 and the helical gear 21 is installed to be rotated according to the flow velocity direction of the water (1), while allowing the rotation of the helical gear (21) It is characterized in that it comprises a magnet shaft 22 to generate a, and a fixing plate 23 to enable the fixing of the helical gear 21 and the magnet shaft 22 on both sides of the magnet shaft 22. In the case of the helical gear 21, the noise is low and the teeth are long, so that the contact area with the water (1) is large, so that the water (1) flow rate can be measured accurately even at the rapid flow rate of the water (1). It becomes higher. In addition, when a general impeller is used, the range of the flow rate of water (1) is 16 to 1600 L/h, and the magnification of the maximum flow rate and the minimum flow rate is limited to 100 times, whereas the use of the helical gear 21 causes water ( The range of flow rate of 1) is 2 to 1600 L/h, and the magnification of the maximum flow rate and minimum flow rate is increased by 800 times, and the consumption of fine water (1) such as water leakage can be accurately checked when the consumer does not use it. It is structured to be able to. The magnet shaft 22 that is inserted into the center of the helical gear 21 and rotates together is inserted on the fixed plate 23 to rotate. This, the helical gear 21 can be used for a wide range of water flow rates by measuring the flow rate of the water (1) with high accuracy.

Further, the electronic part 30 according to the present invention measures the water 1 by recognizing the magnetic force of the rotating means 20, and displays information of the flow rate measured through the power of the battery 31. Such, the electronic unit 30 measures the flow rate of the water 1 through the magnetic shaft 22 that rotates together with the helical gear 21 formed in the rotating means 20 described above, and the measured information It can be displayed on the outside by power from the battery 31 inserted inside. That is, the magnetic force can be formed in a part of the magnet shaft 22 that rotates together with the helical gear 21, so that the rotating body 32 rotates by the magnetic force as it rotates and measures.

In this case, the electronic unit 30 is characterized in that it is provided to be interlocked with the Internet of Things (IOT) to enable wireless remote meter reading. Since the electronic unit 30 enables remote communication and can be interlocked with the Internet of Things (IOT), portable devices such as desktops, notebook PCs, smartphones, and other PDAs without the need to bring a separate meter reader Enables meter reading through a terminal.

In addition, the charging means 40 according to the present invention is connected to the battery 31 of the electronic unit 30 and is provided to be charged through the rotating means 20 rotating according to the flow rate of the water 1. The charging means 40 can be charged as it rotates by the helical gear 21 and the magnet shaft 22 of the rotating means 20, so that the power for 8 years, which is the legal metering durability year of the water meter, is constantly supplied. Make it possible. In addition, since the electronic unit 30 must be interlocked with the Internet of Things (IOT) to enable wireless remote meter reading, power is always supplied through the charging means 40.

At this time, the charging means 40 is characterized in that it is provided with a charging coil 41 to enable charging through a rotating means 20 that is connected to the battery 31 and rotates according to the flow rate of the water (1). As described above, the charging means 40 is configured to allow charging of the battery 31 so that power for 8 years, which is the legal metering durability year of the water meter, can be continuously supplied. That is, as the water 1 flows, the battery 31 is charged by generating an induced current by the rotation of the impeller 21, so that the power for 8 years, which is the legal metering durability year of the water meter, is constantly supplied.

As described above, the present invention can be charged according to the flow of water, so that the power supplied to the LCD of the water meter can be supplied for a long time, so that power for 8 years, which is the legal metering endurance year of the water meter, can be constantly supplied, and the power supply As a result of this smoothness, wireless remote meter reading is smoothly performed using IOT in the water meter, and since the flow rate of water is measured through the rotating helical gear, it provides the effect of recognizing minute flow rates as the maximum and minimum magnification of the flow rate increases.

The present invention is not limited to the disclosed embodiments, and it is obvious to those of ordinary skill in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such variations or modifications will have to belong to the claims of the present invention.

1: water 10: body
11: inlet 12: outlet
20: rotating means 21: helical gear
22: magnetic shaft 23: fixed plate
30: electronic part 31: battery
40: charging means 41: coil

Claims (4)

In an electronic water meter for measuring the flow rate of water (1):
A main body 10 having an inlet 11 through which the water 1 can be introduced and an outlet 12 through which the water 1 can be discharged;
A helical gear 21 that is installed to rotate according to the flow direction of water 1 to generate magnetic force while rotating at a fine flow rate according to the flow rate of water 1 flowing into the body 10, and a helical gear ( 21) is inserted in the center of the magnetic shaft 22, which generates magnetic force while allowing rotation of the helical gear 21, and the helical gear 21 and the magnet shaft 22 are fixed on both sides of the magnet shaft 22. Rotating means (20) having a possible fixing plate (23);
It is provided to be linked with the Internet of Things (IOT) to enable wireless remote meter reading while measuring water (1) by recognizing the magnetic force of the rotating means (20) and displaying information of the flow rate measured through the power of the battery (31). An electronic unit 30; And
And a charging means (40) connected to the battery (31) of the electronic unit (30) and configured to be charged through a rotating means (20) that rotates according to the flow rate of water (1). Electronic water meter. delete delete The method of claim 1,
The charging means (40) is an electronic water meter, characterized in that it comprises a charging coil (41) to be charged through the rotating means (20) connected to the battery (31) rotates according to the flow rate of water (1) .

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